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Abstract
Current methods in comparative genomic analyses for metabolic potential prediction of proteins involved in, or associated with the Dsr (dissimilatory sulphite reductase)-dependent dissimilatory sulphur metabolism are both time-intensive and computationally challenging, especially when considering metagenomic data. We developed DiSCo, a Dsr-dependent dissimilatory sulphur metabolism classification tool, which automatically identifies and classifies the protein type from sequence data. It takes user-supplied protein sequences and lists the identified proteins and their classification in terms of protein family and predicted type. It can also extract the sequence data from user-input to serve as basis for additional downstream analyses. DiSCo provides the metabolic functional prediction of proteins involved in Dsr-dependent dissimilatory sulphur metabolism with high levels of accuracy in a fast manner. We ran DiSCo against a dataset composed of over 190 thousand (meta)genomic records and efficiently mapped Dsr-dependent dissimilatory sulphur proteins in 1798 lineages across both prokaryotic domains. This allowed the identification of new micro-organisms belonging to Thaumarchaeota and Spirochaetes lineages with the metabolic potential to use the Dsr-pathway for energy conservation. DiSCo is implemented in Perl 5 and freely available under the GNU GPLv3 at https://github.com/Genome-Evolution-and-Ecology-Group-GEEG/DiSCo.
Original language | English |
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Article number | 000603 |
Journal | Microbial genomics |
Volume | 7 |
Issue number | 7 |
DOIs | |
Publication status | Published - Jul 2021 |
Austrian Fields of Science 2012
- 106005 Bioinformatics
Keywords
- comparative genomics, dissimilatory sulphur oxidation, dissimilatory sulphate reduction, genotype-phenotype association, microbial physiology
- OXIDATION
- GEN-NOV
- PROTEIN
- dissimilatory sulphate reduction
- ARCHAEOGLOBUS-FULGIDUS
- BACTERIUM ALLOCHROMATIUM-VINOSUM
- CRYSTAL-STRUCTURE
- comparative genomics
- genotype-phenotype association
- SULFATE-REDUCTION
- dissimilatory sulphur oxidation
- microbial physiology
- PURIFICATION
- SULFITE REDUCTASE
- DSRMKJOP COMPLEX
- Comparative genomics
- Dissimilatory sulphate reduction
- Microbial physiology
- Genotype-phenotype association
- Dissimilatory sulphur oxidation
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- 1 Active
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Pan-Metabolic Profiling of Archaea: The Ecology of Genomics
Baltazar de Lima de Sousa, M. F., Jandl, N., Neukirchen, S., Nair, G. M., Pichlhöfer, E., Spiegelhofer, J., Pruckner, C., van Ham, J., Padalko, A., Schleper, C. & Ellis, C.
1/06/16 → 30/09/25
Project: Research funding